Genetic and pathogenic characterization of new infectious bronchitis virus strains in the GVI-1 and GI-19 lineages isolated in central China

Avian infectious bronchitis(IB)is a highly contagious infectious disease caused by infectious bronchitis virus(IBV),which is prevalent in many countries worldwide and causes serious harm to the poultry industry.At present,many commercial IBV vaccines have been used for the prevention and control of IB;however,IB outbreaks occur frequently.In this study,two new strains of IBV,SX/2106 and SX/2204,were isolated from two flocks which were immunized with IBV H120 vaccine in central China.Phylogenetic and recombination analysis indicated that SX/2106,which was clustered into the GI-19 lineage,may be derived from recombination events of the GI-19 and GI-7 strains and the LDT3-A vaccine.Genetic analysis showed that SX/2204 belongs to the GVI-1 lineage,which may have originated from the recombination of the GI-13 and GVI-1 strains and the H120 vaccine.The virus cross-neutralization test showed that the antigenicity of SX/2106 and SX/2204 was different from H120.Animal experiments found that both SX/2106 and SX/2204 could replicate effectively in the lungs and kidneys of chickens and cause disease and death,and H120 immunization could not provide effective protection against the two IBV isolates.It is noteworthy that the pathogenicity of SX/2204 has significantly increased compared to the GVI-1 strains isolated previously,with a mortality rate up to 60%.Considering the continuous mutation and recombination of the IBV genome to produce new variant strains,it is important to continuously monitor epidemic strains and develop new vaccines for the prevention and control of IBV epidemics.

Evolutionary implications of Avian Infectious Bronchitis Virus(AIBV)analysis

For developing efficient vaccines, it is essential to identify which amino acid changes are most important to the survival of the virus. We investigate the amino acid substitution features in the Avian Infectious Bronchitis Virus （AIBV） antigenic domain of a vaccine serotype （DE072） and a virulent viral strain （GA98） to better understand adaptive evolution of AIBV. In addition, the SARS Coronavirus （SARS-CoV） was also analyzed in the same way. It is interesting to find that extreme comparability exists between AIBV and SARS in amino acid substitution pattern. It suggests that amino acid changes that result in overall shift of residue charge and polarity should be paid special attention to during the development of vaccines.

Genotyping and pathotyping of diversified strains of infectious bronchitis viruses circulating in Egypt

AIM: To characterize the circulating infectious bronchitis virus(IBV) strains in Egypt depending on the sequence of the spike-1(S1) gene [hypervariable region-3(HVR-3)] and to study the pathotypic features of these strains.METHODS: In this work, twenty flocks were sampled for IBV detection using RRT-PCR and isolation of IBV in specific pathogen free(SPF) chicks during the period from 2010 to 2015. Partial sequencing and phylogenetic analysis of 400 bp representing the HVR-3 of the S1 gene was conducted. Pathotypic characterization of one selected virus from each group(Egy/Var-Ⅰ, Egy/Var-Ⅱ and classic) was evaluated in one day old SPF chicks. The chicks were divided into 4 groups 10 birds each including the negative control group. Birds were inoculated at one day by intranasal instillation of 105EID50/100 μL of IBV viruses [IBV-EG/1212B-2012(Egy/Var-Ⅱ), IBV/EG/IBV1-2011(Egy/Var-Ⅰ) and IBV-EG/11539F-2011(classic)], while the remaining negative control group was kept uninfected. The birds were observed for clinical signs, gross lesions and virus pathogenicity. The real-time rR TPCR test was performed for virus detection in the tissues. Histopathological examinations were evaluated in both trachea and kidneys.RESULTS: The results revealed that these viruses were separated into two distinct groups; variant(GI-23) and classic(GI-1), where 16 viruses belonged to a variant group, including 2 subdivisions [Egy/Var-Ⅰ(6 isolates) and Egy/Var-Ⅱ(10 isolates)] and 4 viruses clustered to the classic group(Mass-like). IBV isolates in the variant group were grouped with other IBV strains from the Middle East. The variant subgroup(Egy/Var-Ⅰ) was likely resembling the original Egyptian variant strain(Egypt/Beni-Suif/01) and the Israeli strain(IS/1494/2006). The second subgroup(Egy/Var-Ⅱ) included the viruses circulating in the Middle East(Ck/EG/BSU-2 and Ck/EG/BSU-3/2011) and the Israeli strain(IS/885/00). The two variant subgroups(Egy/Var-Ⅰ and Egy/Var-Ⅱ) found to be highly pathogenic to SPF chicks with mortalities up to 50% than those of the classic group which was of low virulence(10% mortality). Pathogenicity indices were 25(Egy/Var-Ⅱ), 24(Egy/Var-Ⅰ) and 8(classic); with clinical scores 3, 2 and 1 respectively.CONCLUSION: These findings indicated that the recent circulating Egyptian IBVs have multiple heterogeneous origins in marked diversifying nature of their spread, with high pathotype in specific pathogen free chicks.

Protection against Infectious Bronchitis Virus, a Corona Virus Infection, Using Ostrich Antibodies

In chickens, infectious bronchitis (IB) is a major respiratory disease. The respiratory system is the primary multiplication site of IB virus (IBV), a coronavirus, after which the virus is distributed to other organs. Poultry farms sustain considerable economic damage due to IB outbreaks in flocks, since IB causes a severe reduction in weight gain in chicks. In the present study, we produced the ostrich IgY against IBV by immunizing female ostriches with the IB viral antigens. The resultant purified IgY showed a strong neutralizing activity against IBV infection of cultured primary chick kidney cells. The infectivity of IBV was markedly inhibited in the trachea of chicks when ostrich IgY was injected intra-muscularly into newly hatched chicks prior to viral inhalation challenge at two weeks of age. Furthermore, the infection was strongly blocked in the tracheae when IgY was injected into chicks at one day and one week of age, with viral inhalation performed at three weeks of age. These findings suggest that the injection of ostrich IgY can help protect young chicks from IBV infections. In south Asian and African countries, broiler chicks are sent to poultry market around 30 days of age, so it is important to prevent IB outbreaks in very young flocks. We strongly believe that ostrich IgY will be a powerful weapon against IB infection in poultry farms on a wide scale and also hope that these findings will aid in the development of antibody vaccines for new type corona viruses, SARS-CoV and MERS-CoV.

Cloning and Sequencing of S Gene of Novel Variant of Infectious Bronchitis Virus ZJ971 Isolates in China

A novel proventriculopathogic variant (isolate ZJ971) of infectious bronchitis virus (IBV) was identified from enlarged proeventriculus of the sick chickens in the study. The S gene cDNA segment with 3.6 kb in length was amplified by RT-PCR with special primers from the ZJ971 viral isolate of (IBV) and cloned into plasmid pBluescript SK( + ). The recombinants containing S gene of IBV-ZJ971 isolate were identified by digestion of restriction enzyme EcoRI, BamHI and PCR amplification. The cloned S gene from isolate IBV-7J971 was composed of 3492 bp in length encoding for a polypeptide of 1080 amino acids. Comparing the nucleotide of S gene of IBV isolate ZJ971 with that of reported IBV strains Beaudette, M41, Ark99 and CuT2, the homology was 97.3%, 97.5%, 88.6% and 85.6%, respectively; and the homology of the deduced amino acids of S protein of IBV isolate ZJ971 was 96%, 96.3%, 86.1% and 83.1% respectively; especially, the mutation of 3241st nucleotide of S gene of IBV isolate ZJ971 from G to T resulted in the translating termination of S protein at 3240th nucleotide site.

A duplex RT-PCR assay for detection of H9 subtype avian influenza viruses and infectious bronchitis viruses

H9 s ubtype avian influenza virus（AIV） and infectious bronchitis virus（IBV） are major pathogens circulating in poultry and have resulted in great economic losses due to respiratory disease and reduced egg production. As similar symptoms are elicited by the two pathogens, it is difficult for their differential diagnosis. So far, no reverse transcription-polymerase chain reaction（RT-PCR） assay has been found to differentiate between H9 AIV and IBV in one reaction. Therefore, developing a sensitive and specific method is of importance to simultaneously detect and differentiate H9 AIV and IBV. In this study, a duplex RT-PCR（d RT-PCR） was established. Two primer sets target the hemagglutinin（HA） gene of H9 AIV and the nucleocapsid（N） gene of IBV, respectively. Spec ific PCR products were obtained from all tested H9 AIVs and IBVs belonging to the major clades circulating in China, but not from AIVs of other subtypes or other infectious avian viruses. The sensitivity of the d RT-PCR assay corresponding to H9 AIV, IBV and mixture of H9 AIV and IBV were at a concentration of 1×10^1, 1.5×10^1 and 1.5×10^1 50% egg infective doses（EID_（50）） m L^–1, respectively. The concordance rates between the d RT-PCR and virus isolation were 99.1 and 98.2%, respectively, for detection of samples from H9N2 AIV or IBV infected chickens, while the concordance rate was 99.1% for detection of samples from H9N2 AIV and IBV co-infected chickens. Thus, the d RT-PCR assay reported herein is specific and sensitive, and suitable for the differential diagnosis of clinical infections and survei llance of H9 AIVs and IBVs.

Effects of Traditional Chinese Herbal Medicine on Immune Organ Indexes and Macrophages Phagocytic Indexes in Chickens Infected by Infectious Bronchitis Virus

[ Objective] To study the therapeutic effects of traditional Chinese medicine prescriptions on infectious bronchitis （IB） and find a novel avenue for prevention and treatment of viral diseases in poultry. [Method] A total of 160 cockerels at the age of 15 d were divided into four groups randomly, including traditional Chinese medicine group, moroxydine control group, challenge control group and healthy control group. Except the healthy control group, other groups were challenged with infectious bronchitis virus （IBV） on Day 15. After 48 h post challenge, the traditional Chinese medicine groupand moroxydine control group were respectively administrated with Chinese herbal medicine prescription and moroxydine, continuously for 5 d. The immune organ indexes and macrephage phagocytic indexes were detected on Day 18, 24 and 30, respectively. [ Result] The immune organ indexes and macrophage phagocytic indexes were not significantly different between traditional Chinese medicine group and moroxydine control group on Day 18. But all the indexes of the traditional Chinese medicine groups were increased significantly （ P 〈 0.05） on Day 24 and 30, and showed extremely significant difference （ P 〈 0.01 ） with those of challenge control group on Day 30. [ Conclusion] The traditional Chinese herbal medicine can enhance macrophage phagocytic indexes and immune organs indexes of chickens infected by IBV.

E Protein Prokaryotic Expression of Avian Infectious Bronchitis Virus

The small envelope protein （E） gene of avian infectious bronchitis virus （IBV） M41 strain was cloned, and then it was subcloned into prokaryotic expressing vector pGEX-6P-1. The recombinant plasmid was transformed into E.coli. BL21 and induced by IPTG. SDS-PAGE result showed that when objective protein fused with GST （about 20 ku）, the relative molecular mass of fusion protein was 38 ku. It indicated that objective protein was about 12.4 ku. The result showed that E protein was expressed successfully, it was useful to the subsequent E protein research.

Molecular Characteristics of S1 Gene of Infectious Bronchitis Virus Isolated from Chicken Proventriculus

Infectious bronchitis virus was isolated from swollen proventriculi of clinically ill chicken. The suspected virus samples (2/97, 3/97, 1/98) were adapted in SPF chicken embryos for virus isolation and identification. All the virus isolates were able to agglutinate chicken erythrocytes after treatment with trypsin, and interfer with the reproduction of Newcastle disease virus in chicken embryos, and have low antigenic relat-edness values with reference positive IBV. The isolates 2/97, 3/97, 1/98 RNAs extracted from the allantoic fluid of inoculated embryonated eggs were converted to cDNA by reverse transcription with 3'-primer of S1 gene of (IBV). Polymerase chain reaction (PCR) was performed with two primers which span the S1 gene. Amplified product of 1. 93 kb was subjected to EcoR I and BamH I digestion and the fragments obtained were the same as expected size. The PCR product was ligated to pBlueScript-SK ( + ) vector, and its nucleotide sequence was determined by the dideoxy-mediated chain termination method. Nucleotide sequence analysis showed 73. 6 - 99. 7% homology between the isolated IBV and the IBV strains in GenBank. The homology of amino acid was 71. 4 - 99.4%.

Isolation and Identification of Avian Infectious Bronchitis Virus

[ Objective] The aim was to isolate and identify avian infectious bronchitis virus （IBV） from diseased chickens. [ Method] IBVs were iso- lated from the diseased chickens in a chicken farm in Anhui Province with blind passage method to observe virus pathogenicity. Then animal regres- sion test was made to replicate symptoms of bronchial congestion in SPF chickens and S1 gene segments were amplified and isolated, followed by comparison with IBV vaccine strains. [ Result] Detection of Hemagglutinating activity （HA） showed that allantoic fluid had no concerning effect on erythrocyte, suggesting that NDV and AIV were not included in the isolated viruses. However, the erythrocyte could be agglutinated with allantoic fluid treated with 1% of pancreatin, which is in consistent with biological characters of IBV. After SPF chickens were inoculated with the 6^th SPF al- lantoic fluid, bronchial congestion was replicated, proving that the isolated virus was avian IBV, named IBV XZ strain. [ Conclusion] This study pro- vides a theoretical basis for prevention of avian infectious bronchitis.

Preparation and Examination of Inactivated Emulsion Vaccine against Newcastle Disease, Infectious Bronchitis and H9 Subtype Avian Influenza

[ Objective] To prepare inactivated emulsion vaccine against Newcastle disease, infectious bronchitis and H9 subtype avian influenza. [ Method] Antigen fluid of Newcastle disease virus （NDV） La Sota strain, infectious bronchitis virus （IBV） M41 strain and HgN2 subtype avian in- fluenza virus （AIV） WD strain was prepared by propagation in chicken embryos, respectively. The antigen fluid was concentrated with FILTRON Cassette ultra-filtration system and inactivated by formalin. The antigen fluid of NDV, IBV and AIV was mixed at a volume ratio of 1：1：1. Then the mixture was emulsified by Span-80 and Tween-80 and added medical white oil as adjuvant. The sterility and physical characteristics of the prepared ND-IB-AI combined vaccine were detected. [ Result] The three batches of ND-IB-AI combined vaccine were germ-free, milky white, with water-in- oil pattern and with viscosity of 6.3 -6.8 s. The water and oil were not separated after rest at 37 ~C for 21 d or centrifugation. [ Conclusion] The three batches of ND-IB-AI combined vaccine were germ-free and reached the standard for physical characteristics of vaccines.

The Establishment of Fluorescent PCR Detection Method for Avian Infectious Bronchitis Virus

[ Objective] The aim was to to establish a kind of peculiar, sensitive and quick fluorescent PCR detection method. [Method] A peculiar, sensitive and quick method of fluorescent PCR detection for avian infectious bronchitis virus was established, the standard curve was built, specific primers, susceptibility and repeatability was detected. [ Result] This method diagnosed avian infectious bronchitis virus peculiarly, sensitively and quickly, simple and easy to use, time short, suitable for clinical testing. [ Conclusion] This research laid the foundation to diagnose avian infectious bronchitis virus.

Isolation and Identification of Avian Nephropathogenic Infectious Bronchitis Virus

In November 2009, a respiratory disease with rapid transmission, rapid onset and mortality of about 8% appeared many times in a large chicken farm in Jiangsu Province of China. Necropsy revealed tracheal bleeding, kidney enlargement and white-spotted kidney. An isolate from the farm was identified as an avian infectious bronchitis virus （IBV） by chicken embryo inoculation, hemagglutination assay, virus interference assay, animal regression and tracheal rings culture. The complete ,S1 gene was amplified by RT-PCR, and its homology to that of the vaccine strains com- monly used in China was analyzed with DNAStar software. Therefore, the IBV isolate was initially classified into nephropathogenic IBV and named IBV JS09 strain.

Prokaryotic Expression of Infectious Bronchitis Virus S1 Gene and Analysis of Biological Activity of Recombinant Protein

[Objective] To study the prokaryotic expression and antigenicity identification of S1 gene from avian infectious bronchitis virus （IBV）. [Method] The S1 gene was cloned into a pMD18-T vector to yield a recombinant plasmids pMD18-T-IBV-S1. Then S1 gene was inserted into the multiple cloning site of a prokaryotic expression vector pET-32a （ ＋ ）. The recombinant plasmid was transformed into E. coil BL21. The recombinant protein was induced by IPTG and measured by SDS-PAGE and western-blotting. [Result] The S1 gene was successfully expressed in E. coil BL21, the fusion proteins were about 66.0 kDa in a form of inclusion body. Western-blotting test showed that the recombinant proteins could be identified by IBV polyclonal antibody. [ Conclusion] The recombinant proteins of S1 gene have the antigenicity, which lays a good foundation for further research on new generation vaccine of IBV.

Correlation between Hemagglutination Inhibition Titer and Protection against Infectious Bronchitis Virus Challenge in SPF Layers

[ Objective] To study the correlation between HI titer and protection against IBV challenge in SPF layers. [ Method ] SPF layers were randomly divided into four groups, namely group A1, A2, B1 and B2. The group A1 was immunized with H120 live vaccine. The group A2 was first immunized with H120 live vaccine and later boosted with ND-IB-EDS trivalent inactivated vaccine. The group B1 was used as unimmunized chal- lenge control. The group B2 was kept as unimmunized unchallenged control. The blood samples were taken prior and post-vaccination at intervals and HI tests were conducted. At the laying peak, the group A1, A2 and B1 were challenged with IBV M4t virulent strain. The clinical features and egg production of layers were monitored and recorded. [Result] After 30 d post vaccination with H120 live vaccine, the HI titer reached 4.45 log2; after 30 days boosting with ND-IB-EDS trivalent inactivated vaccine, the HI titer reached to 7.35 log2. Before challenge, HI antibody titer in group A1, A2, B1 and B2 were respectively 4.24 log2, 7.40 Iog2, 2.10 log2 and 2.10 log2. After challenge, chickens in unimmunized challenge control group B1 showed respiratory symptoms, egg production dropped by 30.9%, and they produced more soft-shelled, no-shelled or abnormal eggs. In the group A1, some chickens had light respiratory symptoms and egg production dropped by 11.7%. In the group A2, the egg production of all chickens was as normal as the group B2. [ Conclusion] When the HI titer was over 6 log2, challenge by virulent virus had no impact on egg produc- tion; when the HI titer was 5 log2, 4 log2 and less 3 log2, egg production dropped by 6.0%, 11.3% and 29.6%, respectively. Thus, the HI anti- body level in chickens has close correlation with protection against IBV challenge.

Development of a Microplate Lectin-Capture RT-PCR (MLC-RT-PCR) for the Detection of Avian Infectious Bronchitis Virus

Rapid, sensitive and specific methods are necessary to confirm the diagnosis of outbreaks of avian infectious bronchitis virus (IBV) infection. The amplification of IBV genome by reverse transcription followed by polymerase chain reaction (RT-PCR) has been one of the most used methods for the detection of this virus in clinical samples. To reduce the time and the number of steps in the molecular diagnosis of IBV, we developed a sensitive and rapid detection method based on viral capture by a lectin (Concanavalin A—Con A) in the microplate wells, followed by RT-PCR to amplify the S1 gene. The detection limit of IBV was 103 EID50/ml for the amplification of 5’part of the S1 gene, and 104 EID50/ml for the amplification of full S1 gene. This technique was specific for IBV detection, and no amplified products were detected for other avian viral pathogens (bursal infectious disease virus, avian metapneumovirus and Newcastle disease virus). The MLC-RT-PCR was as sensitive as conventional RT-PCR, and virus isolation method for the detection of IBV in tissue samples collected from experimentally infected birds. The MLC-RT-PCR technique demonstrated a great potential for the rapid and specific diagnosis of IBV.

Molecular Detection and Sequencing for S1 Glycoprotein Gene of Bronchitis Virus of 2016 Epidemic from Sindh and Punjab

Infectious Bronchitis (IB) is highly contagious disease of commercial poultry causing substantial economic loses by producing poor quality meat in broilers and effecting production in breeder birds. The causative agent has been reported as most hazardous pathogen among other infectious agent even after being immunized with multi-variant strain vaccine. Currently, different strain such as H-120, 4/91 and D274 have been used extensively for immunoprophylaxis against velogenic strain across Pakistan with minimal protection reported. In current study PCR analysis was used to investigate the molecular nature of IB isolates from Punjab and Sind province of Pakistan in 2016 epidemics. Total of 100 tracheal samples were considered for virus inoculation in 10 days old chicken embryonated eggs. The IBV infected amniotic fluid was neutralized with monoclonal antisera of H-120, 4/91 and D274 strains. The IBV screened samples were subjected for RNA extraction and subsequent to PCR using type specific primer of each strain. The amplified product of 840 bp was sequenced through Sanger sequencing. On the basis of PCR results, four similar amplified products from both regions were obtained showing similarities in agarose gel electrophoresis, but they differ from each other on the basis of nucleotides sequence. Phylogenetic analysis revealed that nucleotide sequences of isolates from Karachi were similar to the IBV H-120, Mass-41 and Connecticut 46 reference strains. Whereas, isolates from the Punjab province are analogous to the Mans-2, Mans-3, 9/41(UK) but did not show significant similarity with other reference strain. Therefore, it is recommended that use of M-41 and H-120 in vaccine production could be effective measure against velogenic infectious agent in Sindh particularly in Karachi, whereas, it would be better to incorporate either of the variant GQ281656.1, AY279533.1 in vaccine because of their highest level of resemblance with genetically sequenced isolates from Lahore and its surroundings.

滑液囊支原体与鸡传染性支气管炎病毒共感染对SPF鸡的致病性研究

为比较滑液囊支原体(MS)和鸡传染性支气管炎病毒(IBV)共感染对SPF鸡的致病性,本研究将144只28日龄SPF鸡随机均分为阴性对照组、MS感染组、IBV-M41感染组、IBV-M41+MS共感染组、IBV-QX感染组、IBV-QX+MS共感染组共6组,采用50μL/只剂量按相应分组点眼感染MS (106CCU50)、IBV(105EID50),阴性对照组以50μL/只点眼KM2培养基(左眼)和PBS (右眼)。感染后每天观察临床症状,在感染后7 d、14 d、21 d和28 d每组随机剖检6只鸡,观察气囊炎和气囊损伤评分,并采集气管进行病原再分离,其中MS经支原体液体培养基培养后进行PCR鉴定,IBV接种SPF鸡胚后进行RT-PCR鉴定。此外,各组鸡气管均经10%甲醛固定后进行粘膜厚度检测以及病理损伤评分。结果显示:除阴性对照组和MS感染组,其他组鸡在感染后4 d均出现一过性呼吸道症状。剖检结果显示MS感染组鸡在感染后21 d出现气囊炎,28 d仍可见气囊炎;而IBV-M41感染组和IBV-QX感染组鸡在感染后7 d或14 d出现气囊炎,且气囊炎的发生率均未超过50%。感染后14 d IBV-QX+MS共感染组鸡气囊炎发生率达100%(6/6),直至21 d并且大部分鸡气囊炎可持续至感染后28 d (5/6),而IBV-M41+MS共感染组鸡气囊炎仅可持续至感染后21 d,且气囊炎的发生率最高在感染后14 d (5/6)。IBV-QX+MS共感染组鸡平均气囊损伤评分在感染后14 d、21d和28 d均极显著高于单一感染组(P<0.001),而IBV-M41+MS共感染组鸡仅在感染后14 d极显著高于单一感染组(P<0.001)。病原再分离结果显示,各感染组鸡均在气管中再分离到MS(感染后28 d内)或IBV(感染后7 d内)。病理损伤检测结果显示,共感染组鸡较各单一感染组鸡气管粘膜增厚持续时间更长以及病理损伤更为严重。IBV-M41+MS共感染组鸡在感染后14 d平均气管粘膜厚度显著低于IBV-QX+MS共感染组(P<0.05),而在感染后21 d极显著低于IBV-QX+MS共感染组(P<0.001),其余各组鸡在感染后14 d和21 d均极显著低于IBV-QX+MS共感染组鸡(P<0.001)。IBV M41+MS共感染组鸡最早14 d出现气管病变,而IBV QX+MS共感染组鸡在共感染后7 d就可见气管病理损伤,且共感染组鸡的平均气管损伤评分均极显著高于单一MS或IBV感染组(P<0.01或P<0.001)。上述结果证实MS和IBV共感染较单一感染对28日龄SPF鸡的致病性更强,IBV M41或QX株与MS共感染对SPF鸡的致病性存在差异,本研究为临床IB和MS的防控提供科学参考依据。

IBV M基因与IL-18基因共表达DNA疫苗的免疫原性

将禽传染性支气管炎病毒(IBV)的M基因和禽白介素18(IL-18)基因分别插入双顺反子质粒pIRES-EGFP/DsRed中,构建IBV M和IL-18基因的共表达质粒pIRES-M/IL18及表达M基因的pIRES-M质粒。通过脂质体转染Vero细胞,利用RT-PCR及间接免疫荧光检测质粒在体外的表达。将构建的质粒用脂质体包裹后,通过腿部肌肉多点注射免疫7日龄雏鸡,28日龄加强免疫1次;免疫前后均采血检测ELISA抗体效价和外周血CD3+、CD4+、CD8+T淋巴细胞的数量;二免后2周用IBV肾型强毒进行攻毒。结果显示,pIRES-M/IL18、pIRES-M质粒均在Vero细胞中有效地转录并表达目的蛋白。从免疫后7 d起,pIRES-M/IL18免疫组产生的抗体水平及外周血T淋巴细胞亚群数量均高于pIRES-M组。pIRES-M/IL18、pIRES-M组对强毒的攻击保护率分别为65%和40%。以上结果表明,禽源IL-18基因与IBV M基因共表达可增强鸡体对DNA疫苗的免疫应答,提高对IBV强毒的抵抗力。

IBV广东分离株GD05 S1基因的克隆、鉴定及其表达

Acording to Avian Infectious Brochitis virus( IBV) Beaudette strain S1 gene sequence, a pair of primers were designed and synthesized. With the primers , IBV Guangdong isolation strain GD05 S1 gene was successively amplified by RT-PCR.PCR product was digested with BstY I,\%Hae\% III and \%Pst\% I respectively, the result showed RFLP pattern of was the same as that of M41 S1 gene. IBV GD05 strain was thought as Mass serotype primaryly. IBV GD05 S1 gene was cloned into pGEM-T vector and sequenced, its sequence was consisted of 1611 base pairs. By comparison , the nucleotide sequence was 97.14% identical to that of IBV M41. IBV GD05 S1 gene was subcloned into expression vector pET21d. SDS-PAGE experiment showed that it expressed in \%E.coli.\%